+ // We sometimes end up with phi cycles that non-obviously end up being the
+ // same value, for example:
+ // z = some value; x = phi (y, z); y = phi (x, z)
+ // where the phi nodes don't necessarily need to be in the same block. Do a
+ // quick check to see if the PHI node only contains a single non-phi value, if
+ // so, scan to see if the phi cycle is actually equal to that value.
+ {
+ unsigned InValNo = 0, NumOperandVals = PN.getNumIncomingValues();
+ // Scan for the first non-phi operand.
+ while (InValNo != NumOperandVals &&
+ isa<PHINode>(PN.getIncomingValue(InValNo)))
+ ++InValNo;
+
+ if (InValNo != NumOperandVals) {
+ Value *NonPhiInVal = PN.getOperand(InValNo);
+
+ // Scan the rest of the operands to see if there are any conflicts, if so
+ // there is no need to recursively scan other phis.
+ for (++InValNo; InValNo != NumOperandVals; ++InValNo) {
+ Value *OpVal = PN.getIncomingValue(InValNo);
+ if (OpVal != NonPhiInVal && !isa<PHINode>(OpVal))
+ break;
+ }
+
+ // If we scanned over all operands, then we have one unique value plus
+ // phi values. Scan PHI nodes to see if they all merge in each other or
+ // the value.
+ if (InValNo == NumOperandVals) {
+ SmallPtrSet<PHINode*, 16> ValueEqualPHIs;
+ if (PHIsEqualValue(&PN, NonPhiInVal, ValueEqualPHIs))
+ return ReplaceInstUsesWith(PN, NonPhiInVal);
+ }
+ }
+ }